CN212661771U - Electric mop cleaning device - Google Patents

Abstract

The present application relates to the field of electric mops. The application discloses an electric mop cleaning device, which comprises a mop cleaning cavity, wherein a mop cleaning mechanism with a hollow structure is arranged in the mop cleaning cavity, the hollow structure comprises a framework and a hollow area which is positioned in the framework and consists of a plurality of hollow holes, and the hollow holes are fan-shaped or polygonal; when the electric mop carries out the self-cleaning function, the wiping head of the electric mop is pressed on the mop cleaning mechanism, the mop cleaning mechanism is continuously scraped to scrape off the dirt on the wiping head, or the cleaning water on the wiping head is scraped dry, and the scraped dirt can pass through the hollowed-out mop cleaning mechanism, falls into the mop cleaning cavity and is discharged through the water leakage hole. The electric mop cleaning device disclosed by the application can realize the self-cleaning function of the electric mop, and greatly lightens the cleaning burden of a user.

Description

Electric mop cleaning device

Technical Field

The utility model relates to an electric mop field, more specifically say, relate to an electric mop belt cleaning device.

Background

Mops are well known surface cleaning tools. The traditional mop depends on the active force application of a user, and the mop head is driven to slide on the surface to be cleaned back and forth, so that the cleaning purpose is realized, and the cleaning mode consumes a great deal of physical strength and time of the user.

In order to relieve the user from the heavy physical labor, more and more manufacturers are beginning to produce and release electric mop products to reduce the cleaning burden of the user. The use of an electric mop to mop a surface to be cleaned can make the user more labor-saving, but with that, there are some problems to be solved, such as: the wiping head of the electric mop is usually required to be detached by a user for special cleaning, so that extra burden is brought to the user.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems in the prior art, the application provides the following technical scheme:

in a first aspect, embodiments of the present application disclose an electric mop cleaning device, the electric mop including an electrically driven agitation system, the agitation system comprising: at least one driving motor, a cleaner connected to the corresponding driving motor, and a wiping head attached to the cleaner and slidably moving with the cleaner with respect to a floor, the electric mop cleaning apparatus comprising: the mop cleaning cavity is internally provided with a mop cleaning mechanism and a water leakage hole for discharging sewage, the water leakage hole is sealed by a valve body which can be opened and closed, wherein, the mop cleaning mechanism is provided with a cleaning part along the direction back to the bottom wall of the mop cleaning cavity, and the moving wiping head is propped against the cleaning part to wipe so as to remove the dirt attached on the wiping head.

The electric mop cleaning device disclosed by the embodiment of the first aspect can realize the self-cleaning function of the electric mop, cleans the wiping head of the electric mop, and the power source required by the self-cleaning function is provided by the electric mop, so that a power system does not need to be additionally arranged on the electric mop cleaning device, and the cost is greatly saved. Meanwhile, the electric mop cleaning device is provided with a mop cleaning cavity, a water leakage hole sealed by an openable valve body is arranged in the cavity, the valve body is closed in the cleaning stage of the electric mop, and water is stored in the mop cleaning cavity to wash the wiping head of the electric mop; and in the stage of the electric mop being dried, the valve body is opened, and sewage in the mop cleaning cavity is discharged to scrape the head of the electric mop, so that the electric mop cleaning device can clean the electric mop, can discharge the sewage in the mop cleaning cavity under the condition that a user does not topple over, and continuously dry the electric mop, thereby completely and conveniently realizing the self-cleaning function of the electric mop.

In one possible implementation manner of the first aspect, the electric mop cleaning apparatus further includes: and a valve opening mechanism connected to the valve body for driving the valve body to operate.

In one possible implementation manner of the first aspect, the valve opening mechanism is disposed on the mop cleaning chamber, and the valve opening mechanism includes: the push rod can push against the valve body to perform pivoting motion; or a handle which can drag the valve body to slide.

In one possible implementation manner of the first aspect, the electric mop cleaning apparatus further includes: the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage hole.

In a possible implementation manner of the first aspect, the valve body extends to be connected with the valve opening mechanism at least partially through a through hole formed in the slop pail, and the valve opening mechanism is at least partially exposed out of the slop pail.

In one possible implementation of the first aspect, the valve body includes: pivotable drain valve, corresponding pivotal axis department is equipped with first reset spring, and the hole that leaks is sealed to the one end of drain valve, and the other end is provided with and supports the portion.

In a possible implementation manner of the first aspect, the abutting portion is provided with a self-locking step, the valve body is connected with the valve opening mechanism through a self-locking connecting rod, and after one end of the self-locking connecting rod abutting against the abutting portion is clamped into the self-locking step, the drain valve is kept in an open state.

In one possible implementation manner of the first aspect, the valve opening mechanism includes: the pedal can pivot, and a second return spring is arranged at the position corresponding to the pivot shaft; and a hooking part connected with the abutting part; wherein, the pedal stirs the abutting part through the hooking part under the action of external force so as to open the drain valve to discharge the sewage in the mop cleaning cavity.

In one possible implementation manner of the first aspect, the valve opening mechanism includes: the pedal can pivot, and a third return spring is arranged at the position corresponding to the pivot shaft; and a butting part connected with the butting part; wherein, the pedal jacks up the abutting part through the abutting part under the action of external force so as to open the drain valve to drain sewage in the mop cleaning cavity.

In a possible implementation manner of the first aspect, the mop cleaning mechanism is a porous hollow structure, and the cleaning component divides the corresponding hollow structure into a plurality of hollow areas.

In one possible implementation of the first aspect, the cleaner includes at least one of: the cleaning roller slides in a rolling way relative to the ground; the cleaning turntable performs rotary sliding relative to the ground; the cleaning plate is in reciprocating swing sliding relative to the ground.

In a second aspect, embodiments of the present application disclose an electric mop cleaning apparatus, the electric mop including an electrically driven agitation system, the agitation system comprising: at least one driving motor, a cleaner connected to the corresponding driving motor, and a wiping head attached to the cleaner and slidably moving with the cleaner with respect to a floor, the electric mop cleaning apparatus comprising: the mop cleaning cavity is internally provided with a mop cleaning mechanism which is of a hollow structure, the hollow structure comprises a framework and a hollow area which is arranged in the framework and is formed by a plurality of hollow holes, and the moving wiping head is pressed against the mop cleaning mechanism to be scraped so as to clean the electric mop.

The electric mop cleaning device disclosed by the embodiment of the second aspect is provided with a mop cleaning cavity, and a mop cleaning mechanism is arranged in the mop cleaning cavity. The mop cleaning mechanism is a porous hollow structure, so that in the process of cleaning and drying the electric mop, the removed dirt can pass through the hollow mop cleaning mechanism, fall into the mop cleaning cavity and be discharged through the water leakage holes; and there is the difference in height between the diapire in mop wiper mechanism and mop washing chamber, and the filth can not receive mop wiper mechanism's blockking when the diapire in mop washing chamber removes to help the quick discharge of filth. According to the scheme in the embodiment, the cleaning problem of the electric mop cleaning device is fully considered, and the mop cleaning mechanism is designed to be hollow, so that dirt is prevented from being accumulated on the mop cleaning mechanism; meanwhile, the elutriated wiping head is continuously wiped on the mop cleaning mechanism, so that the mop cleaning mechanism can be naturally wiped, and further cleaned.

In a possible implementation manner of the second aspect, the mop cleaning mechanism has a height difference with the bottom wall of the mop cleaning chamber, so that the structure of the bottom wall of the mop cleaning chamber is relatively simple, accordingly, obstacles encountered by dirt when the bottom wall of the mop cleaning chamber moves are reduced, and the dirt is prevented from being deposited on the bottom wall of the mop cleaning chamber.

In a possible implementation manner of the second aspect, a cleaning component is extended from the mop cleaning mechanism along a direction back to the bottom wall of the mop cleaning cavity, the cleaning component divides the corresponding hollow structure into a plurality of hollow areas, and the moving wiping head is pressed against the cleaning component to scrape so as to remove dirt attached to the wiping head.

In one possible implementation of the second aspect, the cleaning elements are radially arranged in a spiral or linear pattern on the mop cleaning mechanism, the cleaning elements being spaced apart on the respective spiral or linear pattern.

In one possible implementation of the second aspect, the cleaning elements on adjacent spirals or adjacent lines form a staggered array.

In one possible implementation of the second aspect, the cleaning means comprises cleaning ribs, a scrub brush or scrub wheel, and the height of the cleaning means is 2mm to 30 mm.

In one possible implementation of the second aspect, the side walls of the mop cleaning chamber are provided with weirs, the lower edges of which form the water level boundary of the mop cleaning chamber.

In one possible implementation of the second aspect, the floor of the mop cleaning mechanism is between the water level boundary and the bottom wall of the mop cleaning chamber.

In one possible implementation of the second aspect, the water level boundary is 5mm to 50mm from the bottom wall of the mop cleaning chamber; the distance between the bottom surface of the mop cleaning mechanism and the bottom wall of the mop cleaning cavity is 3-45 mm.

In one possible implementation of the second aspect, a support is provided below the mop cleaning mechanism to support the mop cleaning mechanism above the mop cleaning chamber.

In a possible implementation manner of the second aspect, the valve body is disposed below the electric mop cleaning device, and the electric mop cleaning device further includes: and a valve opening mechanism connected to the valve body for driving the valve body to operate.

In one possible implementation manner of the second aspect, the electric mop cleaning apparatus further includes: the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage hole.

In a third aspect, the embodiment of the application discloses an electric mop cleaning device, which comprises a mop cleaning cavity, wherein a mop cleaning mechanism for cleaning an electric mop is detachably arranged in the mop cleaning cavity.

The embodiment of the third aspect discloses an electric mop cleaning device, wherein the mop cleaning cavity is internally provided with a detachable mop cleaning mechanism, when a user needs to clean the mop cleaning cavity and/or the mop cleaning mechanism, the mop cleaning mechanism can be detached and cleaned conveniently in a washing mode, a cleaning mode and a cleaning mode, the whole cleaning process does not need the user to keep bending down or squatting down, and the use experience of the user in cleaning the electric mop cleaning device is fully considered.

In a possible implementation manner of the third aspect, the mop cleaning mechanism is a porous hollow structure, a cleaning part is grown on the mop cleaning mechanism along a direction back to the bottom wall of the mop cleaning cavity, and the cleaning part divides the corresponding hollow structure into a plurality of hollow areas.

In one possible implementation of the third aspect, the cleaning elements are radially arranged in a spiral or linear radial pattern on the mop cleaning mechanism, and the cleaning elements are spaced apart on the corresponding spiral or linear pattern.

In one possible implementation manner of the third aspect, the mop cleaning mechanism is arranged above the mop cleaning cavity and has a height difference with the bottom wall of the mop cleaning cavity.

In a possible implementation manner of the third aspect, the valve body is disposed below the electric mop cleaning device, and the electric mop cleaning device further includes: and a valve opening mechanism connected to the valve body for driving the valve body to operate.

In a possible implementation manner of the third aspect, the valve body extends to be connected with the valve opening mechanism at least partially through a through hole formed in the slop pail, and the valve opening mechanism is at least partially exposed out of the slop pail.

In a possible implementation manner of the third aspect, the inner side wall of the sewage bucket and the overflow ribs arranged on the inner side wall enclose an overflow cavity, an overflow discharge hole communicated with the outside is arranged in the overflow cavity area, and the height of each overflow rib is lower than the through hole.

In a possible implementation manner of the third aspect, the side wall of the slop pail is further provided with a drainage hole, and the drainage hole is blocked by an openable plug.

In one possible implementation of the third aspect, the valve body includes: the drain valve can pivot, a first return spring is arranged at the position corresponding to the pivot shaft, one end of the drain valve seals the water leakage hole, and the other end of the drain valve is provided with a supporting part; the valve opening mechanism includes: the pedal can pivot, and a second return spring is arranged at the position corresponding to the pivot shaft; and a hooking part connected with the abutting part; wherein, the pedal stirs the abutting part through the hooking part under the action of external force so as to open the drain valve to discharge the sewage in the mop cleaning cavity.

In one possible implementation of the third aspect, the electric mop includes an electrically driven agitation system, the agitation system comprising: the mop cleaning mechanism comprises at least one driving motor, a cleaner connected with the corresponding driving motor, and a wiping head attached to the cleaner and capable of sliding relative to the ground along with the cleaner, wherein the bottom of the electric mop is also provided with a positioning hole, and a positioning bulge corresponding to the positioning hole is arranged on the mop cleaning mechanism.

In a fourth aspect, embodiments of the present application disclose an electric mop cleaning apparatus, the electric mop including an electrically driven agitation system, the agitation system comprising: at least one driving motor, a cleaner connected to the corresponding driving motor, and a wiping head attached to the cleaner and slidably moving with the cleaner with respect to a floor, the electric mop cleaning apparatus comprising: the mop cleaning cavity is provided with a mop cleaning mechanism, the mop cleaning mechanism is of a hollow structure, the hollow structure comprises a framework and a hollow area, the hollow area is located in the framework and formed by a plurality of hollow holes, the hollow holes are fan-shaped or polygonal, and the moving wiping head abuts against the mop cleaning mechanism to be scraped so as to clean the electric mop.

The embodiment of the fourth aspect discloses an electric mop cleaning device, which comprises a mop cleaning cavity and a mop cleaning mechanism, wherein a cleaning part is arranged on the mop cleaning mechanism, and a wiping head of an electric mop can be abutted against the cleaning part to wipe, so that dirt attached to the wiping head is scraped off in the cleaning process, and moisture on the wiping head is scraped off in the drying process. Compared with the traditional manual mop, the scheme in the embodiment has the advantages that the user does not need to apply force up and down through the mop rod in the cleaning and drying processes, so that the labor burden of the user is saved; simultaneously, electric mop also need not additionally to drive the mop and washs the chamber and rotate, and only need rely on self power to drive to wipe the head and rotate on washing part and scrape to make electric mop can realize wasing and scraping futilely with lighter load, higher rotational speed, promoted the washing greatly and scraped dry effect. Meanwhile, the mop cleaning mechanism is designed to be hollow, the cleaning part is further arranged on the mop cleaning mechanism, and in the cleaning or drying process, dirt scraped off by the cleaning part on the wiping head can pass through the corresponding hollow hole and fall into the bottom of the mop cleaning cavity, so that the dirt is prevented from being hidden on the mop cleaning mechanism, and the dirt can be conveniently and uniformly discharged from the mop cleaning cavity. Wherein, the fretwork hole can be fan-shaped or polygon to each side that makes the fretwork hole also can form certain scraping effect to the head of wiping of electric mop, in order to scrape the filth off.

In a possible implementation manner of the fourth aspect, the mop cleaning mechanism includes at least one circular hollow-out portion, the circular hollow-out portion includes an inner ring and an outer ring which are concentric, and the cleaning component is interspersed between the inner ring and the outer ring.

In a possible implementation manner of the fourth aspect, the cleaning component is radially and alternately distributed between the inner ring and the outer ring by taking the circle center of the circular hollow part as the center, and divides the circular hollow part into a plurality of hollow areas.

In a possible implementation manner of the fourth aspect, the height of the elongated cleaning member is 2mm to 30 mm.

In a possible implementation manner of the fourth aspect, the cleaning component is further provided with comb teeth formed by the protrusions.

In one possible implementation of the fourth aspect, the cleaning member comprises a cleaning rib and/or a scrub wheel and the scrub head comprises a cleaning pad, a scrubbing cloth and/or a cleaning strip.

In a possible implementation manner of the fourth aspect, a water leakage hole for discharging sewage is further provided in the mop cleaning cavity, and the water leakage hole is sealed by an openable and closable valve body.

In one possible implementation manner of the fourth aspect, the electric mop cleaning device further includes: the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage hole.

In a possible implementation manner of the fourth aspect, the valve body is disposed below the electric mop cleaning device, and the electric mop cleaning device further includes: and a valve opening mechanism connected to the valve body for driving the valve body to operate.

In a possible implementation manner of the fourth aspect, the valve body extends to be connected with the valve opening mechanism at least partially through the via hole opened on the slop pail, and the valve opening mechanism is at least partially exposed out of the slop pail, wherein the valve body includes: the drain valve can pivot, a first return spring is arranged at the position corresponding to the pivot shaft, one end of the drain valve seals the water leakage hole, and the other end of the drain valve is provided with a supporting part; the valve opening mechanism includes: the pedal can pivot, and a third return spring is arranged at the position corresponding to the pivot shaft; and a butting part connected with the butting part; wherein, the pedal jacks up the abutting part through the abutting part under the action of external force so as to open the drain valve to drain sewage in the mop cleaning cavity.

Drawings

FIG. 1 is a schematic view of an embodiment of the present invention showing the structure of an electric mop cleaning apparatus;

FIG. 2 is a schematic view of the electric mop and the electric mop cleaning apparatus according to one embodiment of the present application;

FIG. 3 is an exploded view of the electric mop cleaning device of one embodiment of the present application;

FIGS. 4 a-4 c are schematic views of a mop cleaning mechanism according to an embodiment of the present application;

FIGS. 5 a-5 b are schematic views of the electric mop cleaning apparatus of one embodiment of the present application;

FIG. 6 is a schematic view of the electric mop cleaning apparatus according to still another embodiment of the present application;

FIG. 7 is a schematic view of the electric mop cleaning apparatus according to still another embodiment of the present application;

fig. 8 is a schematic view of a structure of a slop pail according to an embodiment of the present application;

FIGS. 9a to 9c are schematic views showing the structure of a cleaner according to an embodiment of the present invention;

FIG. 10 is a schematic view of a mop cleaning chamber according to one embodiment of the present application;

FIG. 11 is a schematic view of the electric mop cleaning apparatus of one embodiment of the present application;

FIG. 12 is a schematic structural view of a mop cleaning mechanism according to an embodiment of the present application;

FIG. 13 is an enlarged schematic view of region A of FIG. 12;

fig. 14 is a schematic view showing the structure of an electric mop cleaning apparatus according to still another embodiment of the present application.

Detailed Description

It should be understood by those skilled in the art that the embodiments described below are only a part of the embodiments of the present disclosure, not all of the embodiments of the present disclosure, and the part of the embodiments are intended to explain the technical principles of the present disclosure and not to limit the scope of the present disclosure. All other embodiments that can be derived by one of ordinary skill in the art based on the embodiments provided in the disclosure without inventive faculty should still fall within the scope of the disclosure.

It should be noted that in the description of the present disclosure, the terms "center", "upper", "lower", "top", "bottom", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present disclosure. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present disclosure, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood by those skilled in the art as appropriate.

The technical solution in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application:

referring to fig. 1, there is disclosed a power mop cleaning device 1000, the power mop including an electrically powered agitation system comprising: at least one drive motor, a cleaner connected to the corresponding drive motor, and a cleaning head attached to the cleaner and slidably movable with the cleaner relative to a floor, comprising: mop washs chamber 1001, is equipped with mop wiper mechanism 1002 and the hole 1003 that leaks that is used for discharging sewage in the mop washs chamber 1001, and the hole 1003 that leaks is sealed through open closed valve body 1004, and wherein, the last orientation of along the mop wiper mechanism 1002 bottom wall of mop cleaning chamber 1001 of dorsad goes out has cleaning element 105, and the head that wipes of motion supports to press on it scrapes to will be attached to and wipe the overhead filth clearance of wiping.

The electric mop cleaning device 1000 disclosed in this embodiment can wash the electric mop in the mop cleaning cavity 1001 storing cleaning water, and can dry the electric mop in the mop cleaning cavity 1001 after discharging sewage, thereby efficiently and conveniently realizing the complete self-cleaning function of the electric mop. In this embodiment, be provided with mop cleaning mechanism 1002 in the mop cleaning cavity 1001, the long-out of direction along mop cleaning mechanism 1001 diapire dorsad on the mop cleaning mechanism 1002 has cleaning element 1005, supplies the head of wiping of motion to push against and scrape on it, and this not only helps scraping off and wipes overhead filth, can further scrape dry the head of wiping on the basis that electric mop spin-dries moreover to electric mop's washing and dry effect of taking off have been promoted. The cleaning and drying process of the electric mop cleaning device 1000 in the embodiment can be realized by depending on the stirring system of the electric mop, so that an additional power system does not need to be configured for the electric mop cleaning device, the cost is greatly saved, the corresponding electric mop cleaning device can be placed near a floor drain of a balcony or a toilet to discharge sewage when in use, and the sewage in the mop cleaning cavity 1001 can be discharged only by opening the valve body 1004 after the electric mop is elutriated and/or dried, so that the dumping action of a user is avoided.

As one embodiment of the present application, the electric mop cleaning apparatus further includes: and the valve opening mechanism is connected with the valve body and is used for driving the valve body to act. With continued reference to fig. 1, in the electric mop cleaning device 1000 of this embodiment, the valve body 1004 is disposed below the electric mop cleaning device 1000, and the electric mop cleaning device 1000 further includes a valve opening mechanism 1006 connected to the valve body 1004 for driving the valve body 1004 to operate, so that a user can conveniently open/close the valve body 1004 by operating the valve opening mechanism 1006 to switch to the drying process after the cleaning process of the electric mop is completed. As one embodiment of the present application, the valve opening mechanism is disposed on the mop cleaning chamber, and the valve opening mechanism includes: the push rod can be pressed against the valve body to perform pivoting motion; or the handle can drag the valve body to perform sliding motion. In this embodiment, the valve opening mechanism 1006 is provided in the mop cleaning chamber 1001, and the valve opening mechanism 1006 includes: the valve body 1004 is pivoted against the push rod, and when a user presses the push rod downwards, the valve body 1004 is pivoted to enable the water leakage hole 1003 to be in an open state, so that the sewage in the mop cleaning cavity 1001 is discharged. As still another implementation manner of the present embodiment, the valve opening mechanism 1006 includes: a handle for dragging the valve body 1004 to slide, when the handle is dragged by a user, the valve body 1004 slides to make the water leakage hole 1003 in an open state, thereby discharging the sewage in the mop cleaning cavity 1001. In order to improve the sealing effect of the valve body 1004 on the water leakage hole 1003, a sealing ring 1007 is arranged between the valve body 1004 and the water leakage hole 1003.

Reference is made to fig. 2-8, which relate to one embodiment of the present application. This embodiment discloses a power mop cleaning device 2000, a power mop 3000 including an electrically powered agitation system comprising: at least one driving motor (internal structure, not shown), a cleaning unit 3001 connected to the corresponding driving motor, and a wiping head 3002 attached to the cleaning unit 3001 and slidably moving with the cleaning unit 3001 with respect to the floor, comprising: a mop cleaning cavity 2001, a mop cleaning mechanism 2002 and a water leakage hole 2003 for discharging sewage are arranged in the mop cleaning cavity 2001, the water leakage hole 2003 is sealed by an openable valve body 2004, wherein a cleaning part 2005 is extended out of the mop cleaning mechanism 2002 along the direction back to the bottom wall of the mop cleaning cavity 2001, and a moving wiping head 3002 is pressed against the cleaning part for scraping so as to remove the sewage attached to the wiping head 3002. The electric mop cleaning device 2000 in this embodiment can realize the self-cleaning function of the electric mop 3000, and can avoid the action of dumping sewage by the user, and the cleaning stage of the electric mop 3000 is switched to the drying stage, thereby greatly reducing the labor burden of the user.

As one embodiment of the present application, the electric mop cleaning apparatus further includes: and the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage holes. Compared with the electric mop cleaning device 1000 disclosed in fig. 1, the electric mop cleaning device 2000 in the embodiment is further provided with the sewage bucket 2008 for containing the mop cleaning cavity 2001, so that the use places of the electric mop cleaning device are widened, a user can use the electric mop cleaning device 2000 in rooms without floor drains, such as living rooms and bedrooms, and after the electric mop 3000 is automatically cleaned for multiple times, sewage stored in the sewage bucket 2008 is uniformly discharged.

As one embodiment of the present application, the valve body extends to be connected to the valve opening mechanism at least partially through a through hole formed in the slop pail, and the valve opening mechanism is at least partially exposed to the slop pail. Referring to fig. 3, 5a, 5b and 8, the electric mop cleaning device in this embodiment includes a valve body 2004 and a valve opening mechanism 2006, wherein the valve body 2004 extends to connect with the valve opening mechanism 2006 at least partially through a through hole 2015 formed on the slop pail 2008. In this embodiment, the valve opening mechanism 2006 is at least partially exposed to the waste tub 2008, so that a user can conveniently manipulate the mop cleaning chamber 2001 from outside the electric mop cleaning apparatus 2000 to drain.

As one embodiment of the present application, the valve body includes: pivotable drain valve, corresponding pivotal axis department is equipped with first reset spring, the one end of drain valve is sealed the hole that leaks, the other end is provided with and supports the portion. As an embodiment of the present application, the valve opening mechanism includes: the pedal can pivot, and a second return spring is arranged at the position corresponding to the pivot shaft; and a hooking part connected with the abutting part; the pedal stirs the abutting part through the hooking part under the action of external force so as to open the drain valve to discharge sewage in the mop cleaning cavity. Referring to fig. 3, 5a and 5b, an electric mop cleaning device 2000 in one embodiment of the present application is disclosed, wherein the valve body 2004 includes a pivotable drain valve, a first return spring 2009 is disposed at the corresponding pivot shaft, one end of the drain valve closes the water leakage hole 2003, and the other end of the drain valve is disposed with an abutting portion 2016. In addition, in this embodiment, the valve opening mechanism 2006 includes: a pivotable pedal 2010 provided with a second return spring 2011 at a corresponding pivot axis, and a hooking part 2018 connected with the abutting part 2016; wherein the step 2010 undulates the abutting portion 2016 via the hooking portion 2018 under an external force to open the drain valve to discharge the sewage in the mop washing chamber 2001. In the electric mop cleaning device 2000 of this embodiment, the valve opening mechanism 2006 is at least partially exposed out of the waste water tank 2008, and the pedal 2010 is provided for the user to step on, so that the user's hand is prevented from being soiled and the inconvenience of the user in stooping operation is also avoided during the whole cleaning, draining and drying processes.

As one embodiment of the application, the side wall of the sewage bucket is also provided with a drainage hole, and the drainage hole is blocked by an openable plug. Referring to fig. 3, in this embodiment, the sidewall of the slop pail 2008 is further provided with a drainage hole 2013, the drainage hole 2013 is plugged by the openable plug 2014, when the sewage stored in the slop pail 2008 needs to be emptied, the user only needs to open the plug 2014, and does not need to empty the sewage by dumping, so that the convenient draining of the slop pail 2008 is realized. In this embodiment, a seal ring 2007 is provided between the valve body 2004 and the water leakage hole 2003.

As one of the embodiments of this application, the portion of supporting is provided with the auto-lock step, the valve body with be connected through the auto-lock connecting rod between the valve opening mechanism, the auto-lock connecting rod with the one end card that the portion of supporting offsets is gone into behind the auto-lock step, the drain valve keeps the open mode. Referring to fig. 6, this embodiment is a modification of the embodiment in fig. 5a and 5b, wherein the abutting portion 2016 is provided with a self-locking step, the valve body 2004 and the valve opening mechanism 2006 are connected through a self-locking connecting rod 2019, and after one end of the self-locking connecting rod 2019 abutting against the abutting portion 2016 is clamped into the self-locking step, the drain valve is kept in an open state, so that the sewage in the mop cleaning cavity 2001 is continuously discharged into the waste water tank 2008 through the water leakage hole 2003. By adopting the scheme in the embodiment, after a user steps on the pedal 2010 once, one end of the self-locking connecting rod 2019 is clamped into the self-locking step, so that the drain valve is kept in an open state, and the user can drain the sewage in the mop cleaning cavity 2001 without continuously stepping on the pedal 2010; when the user takes out the mop cleaning cavity 2001, the valve body 2004 and the self-locking connecting rod 2019 are reset, so that the mop cleaning cavity is convenient to use next time.

As an embodiment of the present application, the valve opening mechanism includes: the pedal can pivot, and a third return spring is arranged at the position corresponding to the pivot shaft; and a butting part connected with the butting part; the pedal jacks the abutting part through the abutting part under the action of external force so as to open the drain valve to drain sewage in the mop cleaning cavity. Referring to fig. 7, this embodiment is a modification of the embodiment in fig. 6, wherein the valve opening mechanism 2006 includes a pedal 2010, a third return spring and a butting part 2020 connected to the butting part 2016, wherein the pedal 2010 pushes up the butting part 2016 via the butting part 2020 under the action of external force to open the drain valve to discharge the waste water in the mop cleaning chamber 2001. In this embodiment, the user can also operate the electric mop 3000 without hands, and the cleaning process and the drying process can be switched.

As one embodiment of the application, the mop cleaning mechanism is a porous hollow structure, and the cleaning part divides the corresponding hollow structure into a plurality of hollow areas. Referring to fig. 2, 3, 4 a-4 c, a schematic view of a mop cleaning mechanism according to one embodiment of the present application is disclosed. In this embodiment, the mop cleaning mechanism 2002 is a porous hollow structure, the cleaning component 2005 divides the corresponding hollow structure into a plurality of hollow areas 2021, during the cleaning and drying process of the electric mop 3000, the dirt on the wiping head 3002 is scraped off by the cleaning component 2005 and falls into the mop cleaning cavity 2001 via the hollow areas 2021, and after the valve body 2004 is opened, the dirt can be discharged from the water leakage hole 2003 along with the sewage. In this embodiment, the cleaning member 2005 is elongated in a direction away from the bottom wall of the mop cleaning chamber 2001 to wipe the scrub head 3002 for cleaning/drying the scrub head 3002. If the dirt scraped off the wiping head 3002 is not discharged out of the mop cleaning chamber 2001 in a timely manner, the dirt is easily accumulated in the mop cleaning chamber 2001 and the mop cleaning mechanism 2002, and if left untreated for a long time, it is liable to mold and generate a bad smell, which will certainly bring a new cleaning problem to the user. Therefore, in this embodiment, the mop cleaning mechanism 2002 is designed to be a porous hollow structure, which is beneficial to keeping the mop cleaning mechanism 2002 clean, and the trouble that the user cleans the mop cleaning cavity 2001 and the mop cleaning mechanism 2002 is avoided.

As one of the embodiments of the present application, the cleaning member comprises a cleaning rib and/or a scrub wheel and the scrub head comprises a cleaning pad, a scrub pad and/or a cleaning strip. In this embodiment, the cleaning member 2005 may be a cleaning rib and/or a scrub wheel. As will be appreciated by those skilled in the art, the mop head 3002 can include a variety of configurations, such as a cleaning pad, a mop cloth, or a cleaning strip, and can, of course, include combinations thereof, such as a cleaning pad overwrapping a mop cloth, or an additional cleaning strip positioned about a periphery of a mop cloth.

As one embodiment of the present application, the cleaner includes at least one of: the cleaning roller slides in a rolling way relative to the ground; the cleaning turntable performs rotary sliding relative to the ground; the cleaning plate is in reciprocating swing sliding relative to the ground. Referring to fig. 2 and 9b, the electric mop 3000 of this embodiment includes a mop rod 3003 and a cleaning unit 3001, the cleaning unit 3001 is a rotatable cleaning wheel capable of rotating and sliding relative to the floor, and a wiping head 3002 is detachably disposed on the cleaning wheel. The wiping head 3002 may be adhered to the cleaner 3001 by a hook and loop fastener, or may be mounted to the cleaner 3001 by a screw. In one embodiment of the present application, the electric mop includes an electrically driven agitation system comprising: the mop cleaning mechanism comprises at least one driving motor, a cleaner connected with the corresponding driving motor and a wiping head attached to the cleaner and capable of sliding relative to the ground along with the cleaner, wherein the bottom of the electric mop is also provided with a positioning hole, and the mop cleaning mechanism is provided with a positioning bulge corresponding to the positioning hole. In this embodiment, cleaning head 3002 is attached to cleaner 3001 and slidably moves with cleaner 3001 relative to the floor. When the electric mop 3000 is placed in the electric mop cleaning device 2000 for cleaning/drying, the high-speed operation of the stirring system of the electric mop 3000 easily causes the electric mop 3000 to shake or even topple over, in order to ensure that the electric mop 3000 can be cleaned on the electric mop cleaning device 2000 smoothly, the bottom of the electric mop 3000 in this embodiment is further provided with a positioning hole 3004, and the electric mop cleaning device 2000 is correspondingly provided with a positioning post 2024, so as to position the electric mop 3000.

Referring to fig. 9 a-9 c, some possible configurations of the power mop of the present application are disclosed. The cleaner 3001 of the electric mop 3000 may be in the form of a cleaning turn table, or may be a cleaning roller capable of rolling and sliding on the floor as shown in fig. 9a, or a cleaning plate capable of reciprocating and swinging and sliding on the floor as shown in fig. 9 c.

Referring to fig. 2, 10-13, relating to one embodiment of the present application, which discloses an electric mop cleaning device 2000, an electric mop 3000 includes an electrically driven agitation system comprising: at least one driving motor, a cleaner 3001 connected to the corresponding driving motor, and a wiping head 3002 attached to the cleaner 3001 and slidably moving with the cleaner 3001 with respect to the floor, comprising: the mop cleaning cavity 2001 is provided with a mop cleaning mechanism 2002 and a water leakage hole 2003 for discharging sewage, the water leakage hole 2003 is sealed through an openable valve body 2004, wherein the movable wiping head 3002 is pressed on the mop cleaning mechanism 2002 to clean the electric mop 3000, the mop cleaning mechanism 2002 is a porous hollow structure, the mop cleaning mechanism 2002 is arranged above the mop cleaning cavity 2001, and a height difference exists between the mop cleaning mechanism 2002 and the bottom wall of the mop cleaning cavity 2001. In this embodiment, the cleaning difficulty of the electric mop cleaning device 2000 itself is fully considered, and the mop cleaning mechanism 2002 is designed to be hollow, so that dirt is prevented from being accumulated on the mop cleaning mechanism 2002; meanwhile, the elutriated wiping head 3002 is continuously wiped on the mop cleaning mechanism 2002, so that the mop cleaning mechanism 2002 can be naturally wiped, and the mop cleaning mechanism 2002 is further cleaned; in addition, the difference in height between the mop cleaning mechanism 2002 and the bottom wall of the mop cleaning chamber 2001 makes the bottom wall of the mop cleaning chamber 2001 relatively simple, which in turn reduces the obstacles encountered by dirt moving along the bottom wall of the mop cleaning chamber 2001, making it easier for dirt to be washed away by running water, and thus helps to prevent dirt from depositing on the bottom wall of the mop cleaning chamber 2001. In this embodiment, the mop cleaning mechanism 2002 is a hollow structure, the hollow structure includes a framework and a hollow region 2021 located in the framework and formed by a plurality of hollow holes, wherein the cleaning component 2005 can be grown on the framework of the mop cleaning mechanism 2002. Wherein, the hollowed-out hole can be fan-shaped or polygonal to even mop wiper mechanism 2002 does not additionally set up cleaning element, also can utilize each side of hollowed-out hole to scrape head 3002 and rub, in order to realize cleaning and scraping dry head 3002.

As one of them embodiment of this application, last along dorsad of mop wiper mechanism the mop washs the direction of chamber diapire and has grown out cleaning element, cleaning element separates corresponding hollow out construction for a plurality of fretwork regions, wherein, the head of wiping of motion support press in carry out the scratch on the cleaning element, in order will be attached to the filth of wiping on the head is clear away. In this embodiment, the mop cleaning mechanism 2002 is provided with the cleaning component 2005, the cleaning component 2005 divides the hollow structure into a plurality of hollow areas 2021, and dirt scraped off by the cleaning component 2005 can pass through the hollow areas 2021, fall into the mop cleaning cavity 2001 and then be discharged through the water leakage holes 2003 along with the sewage.

As one embodiment of the application, the cleaning elements are radially distributed on the mop cleaning mechanism in a spiral or linear radial manner, and the cleaning elements are arranged at intervals on the corresponding spiral or linear manner. As one embodiment of the present application, the cleaning elements on adjacent spirals or adjacent lines form a staggered array. Referring to fig. 12, as an example, the cleaning members 2005 are linearly and radially arranged on the mop cleaning mechanism 2002, and the cleaning members 2005 are arranged at intervals on the corresponding lines. On the one hand, the edges and corners of the cleaning component 2005 for the wiping head 3002 to wipe are increased; on the other hand, the gaps between adjacent cleaning components 2005 on the same spiral or straight line can perform certain squeezing and rubbing effects on the part of the wiping head 3002 entering the corresponding gap in the process of scraping the wiping head 3002, so that the decontamination effect of the electric mop cleaning device 2000 is greatly improved. Meanwhile, the gaps between adjacent cleaning members 2005 in the same spiral or straight line provide a path for water flow in the mop cleaning chamber 2001, so that the water flow can freely flow in the region between the spirals or straight lines in the mop cleaning chamber 2001, and dirt can be washed away from the mop cleaning chamber 2001 by the cleaning water, thereby preventing the dirt from being deposited in the mop cleaning chamber 2001 and left for a user to handle during a washing or spin-drying process of the electric mop 3000.

Fig. 13 is an enlarged schematic view of region a in fig. 12. Referring to FIG. 13, in one embodiment of the present application, the cleaning elements on adjacent spirals or adjacent lines form a staggered array. In this embodiment, the cleaning members 2005 arranged in adjacent straight lines are staggered, so that the gap regions between the cleaning members 2005 arranged in the same straight line can be mutually compensated to sufficiently clean the wiping head 3002. As will be appreciated by those skilled in the art, in other embodiments of the present application, the cleaning elements 2005 may be spaced along the spirals, and the cleaning elements 2005 on adjacent spirals may also form a staggered array.

As one embodiment of the application, the cleaning component comprises a cleaning rib, a scraping brush or a scrubbing wheel, and the height of the cleaning component is 2mm-30 mm. In this embodiment, the cleaning means 2005 comprises a cleaning rib, a scrub brush or a scrub wheel, and the height of the cleaning means 2005 is in the range of 2mm to 30 mm.

As one embodiment of the application, the side wall of the mop cleaning cavity is provided with an overflow opening, and the lower edge of the overflow opening forms the water level boundary line of the mop cleaning cavity. Referring to fig. 10 and 11, in this embodiment, the side walls of the mop wash chamber 2001 are provided with overflow 2026, and the lower edge of the overflow 2026 defines the water level boundary of the mop wash chamber 2001. When the water in the mop cleaning chamber 2001 exceeds the water level limit, the water will overflow from the overflow port 2026, so as to ensure that the electric mop 3000 can maintain a proper amount of water in the mop cleaning chamber 2001 during the cleaning process. In addition, in the drying stage, the sewage thrown by the electric mop 3000 can be discharged through the overflow port 2026, so that the drying process of the electric mop 3000 is accelerated.

As one example of the present application, the bottom surface of the mop cleaning mechanism is between the water level boundary and the bottom wall of the mop cleaning chamber. Referring to fig. 11, in this embodiment, the mop cleaning mechanism 2002 is disposed above the mop cleaning chamber 2001, and has a height difference X from the bottom wall of the mop cleaning chamber 2001. In this embodiment, the bottom surface of the mop cleaning mechanism 2002 is located between the water level boundary and the bottom wall of the mop cleaning cavity 2001, so that during the cleaning process of the electric mop 3000, the cleaning water in the mop cleaning cavity 2001 can overflow above the mop cleaning mechanism 2002 through the hollow region 2021, and the cleaning water does not overflow through the overflow gap 2026, thereby ensuring that the electric mop 3000 is fully immersed in the cleaning water during the cleaning process.

As one example of the present application, the water level boundary is 5mm-50mm from the bottom wall of the mop cleaning cavity; the bottom surface of the mop cleaning mechanism is 3mm-45mm away from the bottom wall of the mop cleaning cavity. In this embodiment, the distance between the bottom surface of the mop cleaning mechanism 2002 and the bottom wall of the mop cleaning cavity 2001 is X, the distance between the top end of the mop cleaning member 2005 and the water level boundary is H, and the height of the mop cleaning member 2005 itself is D, then the distance M between the water level boundary and the bottom wall of the mop cleaning cavity 2001 is X + D + H, where X is greater than or equal to 3mm and less than or equal to 45mm, D is greater than or equal to 2mm and less than or equal to 30mm, and M is greater than or equal to 5mm and less than or equal to 50mm, according to the height range provided by this embodiment, the skilled person can reasonably set M, X, D and H parameters, so that the bottom surface of the mop cleaning mechanism 2002 is between the water level boundary and the.

As one embodiment of the present application, a support member is provided below the mop cleaning mechanism to support the mop cleaning mechanism above the mop cleaning chamber. Referring to fig. 10 and 11, in this embodiment, a support 2025 is provided below the mop cleaning mechanism 2002 to support the mop cleaning mechanism above the mop cleaning chamber 2001. The supporting member 2025 may be integrated with the mop cleaning mechanism 2002 or integrated with the mop cleaning chamber 2001, as long as the corresponding supporting function can be achieved.

As one embodiment of the present application, the valve body is disposed below the electric mop cleaning apparatus, and the electric mop cleaning apparatus further includes: and the valve opening mechanism is connected with the valve body and is used for driving the valve body to act. As one embodiment of the present application, the electric mop cleaning apparatus further includes: and the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage holes.

As one of them embodiment of this application, last along dorsad of mop wiper mechanism the mop washs the direction of chamber diapire and has grown out cleaning element, cleaning element separates corresponding hollow out construction for a plurality of fretwork regions, wherein, the head of wiping of motion support press in carry out the scratch on the cleaning element, in order will be attached to the filth of wiping on the head is clear away. Referring to fig. 3, 4 a-4 c, in this embodiment, a cleaning component 2005 is extended from the mop cleaning mechanism 2002 in a direction away from the bottom wall of the mop cleaning chamber 2001, the cleaning component 2005 divides the corresponding hollow structure into a plurality of hollow areas 2021, wherein the moving wiping head 3002 is pressed against the cleaning component 2005 for scraping, so as to remove the dirt attached to the wiping head 3002. By adopting the scheme in the embodiment, the grown cleaning part 2005 can go deep into the root of the wiping head 3002 to be cleaned, so that the cleaning effect and the scraping effect of the electric mop 3000 in the self-cleaning process are greatly improved; meanwhile, dirt falling during cleaning can fall into the mop cleaning chamber 2001 through the hollow region 2021 and be discharged through the water leakage hole 2003 along with the sewage, thereby helping to keep the mop cleaning mechanism 2002 clean and preventing the dirt from being deposited in the mop cleaning chamber 2001.

As one embodiment of the application, the cleaning elements are radially distributed on the mop cleaning mechanism in a spiral or linear radial manner, and the cleaning elements are arranged at intervals on the corresponding spiral or linear manner. Referring to fig. 4 a-4 c, a partial exemplary form of the mop cleaning mechanism 2002 of the present application is disclosed. In one embodiment of the present application, the cleaning elements 2005 are radially disposed on the mop cleaning mechanism 2002 in a spiral or linear manner, and the cleaning elements 2005 are spaced apart on the corresponding spiral or linear manner, which increases the angular edge of the cleaning elements 2005 for the scrub head 3002 to scrub; on the other hand, the gaps between adjacent cleaning components 2005 on the same spiral or straight line can perform certain squeezing and rubbing effects on the part of the wiping head 3002 entering the corresponding gap in the process of scraping the wiping head 3002, so that the decontamination effect of the electric mop cleaning device 2000 is greatly improved. Meanwhile, the gaps between adjacent cleaning members 2005 in the same spiral or straight line provide a path for water flow in the mop cleaning chamber 2001, so that the water flow can freely flow in the region between the spirals or straight lines in the mop cleaning chamber 2001, and dirt can be washed away from the mop cleaning chamber 2001 by the cleaning water, thereby preventing the dirt from being deposited in the mop cleaning chamber 2001 and left for a user to handle during a washing or spin-drying process of the electric mop 3000.

As one embodiment of the application, the cleaning component comprises a cleaning rib, a scraping brush or a scrubbing wheel, and the height of the cleaning component is 2mm-30 mm. The cleaning means 2005 in this embodiment may be a cleaning rib, a scrub brush or a scrub wheel, optionally the height of the cleaning means 2005 is in the range of 2mm-30 mm. If the height of the cleaning member 2005 is less than 2mm, the cleaning member 2005 is too short to clean the wiper 3002 deeply; if the height of the cleansing member 2005 is higher than 30mm, a higher demand is made for the strength of the cleansing member 2005, otherwise the cleansing member 2005 will be easily broken.

Referring to fig. 3, in one embodiment of the present application, an electric mop cleaning device 2000 is disclosed, which comprises a slop pail 2008 and a mop cleaning cavity 2001 installed in the slop pail 2008, a mop cleaning mechanism 2002 for cleaning an electric mop 3000 is detachably installed in the mop cleaning cavity 2001, a water leakage hole 2003 for discharging sewage is further installed in the mop cleaning cavity 2001, and the water leakage hole 2003 is sealed by an openable and closable valve body 2004. In the electric mop cleaning device 2000 of this embodiment, the mop cleaning mechanism 2002 in the mop cleaning cavity 2001 is detachable, so that when a user needs to clean the mop cleaning cavity 2001 and/or the mop cleaning mechanism 2002, the mop cleaning mechanism 2002 can be detached, and the user can clean the mop conveniently by flushing, wiping and the like. The mop cleaning mechanism 2002 can be taken out by a user for cleaning, and the user does not need to bend down or keep a squatting position during cleaning; after the mop cleaning mechanism 2002 is taken out, the structure of the mop cleaning cavity 2001 is very simple and flat, and almost no dead angle exists for cleaning, so that a user can conveniently wash or wipe the mop. The electric mop cleaning device 2000 in this embodiment greatly reduces the difficulty and burden of the user in cleaning the electric mop, and has good use experience.

As one embodiment of the application, the projection area of the mop cleaning mechanism on the bottom wall of the mop cleaning cavity is smaller than the area of the bottom wall of the mop cleaning cavity, so that a matched gap is formed between the mop cleaning mechanism and the mop cleaning cavity. In this embodiment, the projected area of the mop cleaning mechanism 2002 on the bottom wall of the mop cleaning chamber 2001 is smaller than the area of the bottom wall of the mop cleaning chamber 2001 to form a mating gap between the mop cleaning mechanism 2002 and the mop cleaning chamber 2001, thereby allowing a user to easily and conveniently remove the mop cleaning mechanism 2002 from the mop cleaning chamber 2001.

As one embodiment of the application, the mop cleaning mechanism is detachably arranged in the mop cleaning cavity in a clamping, buckling, screwing or drawer connecting mode. It will be appreciated by those skilled in the art that the mop cleaning mechanism 2002 may be removably mounted in the mop cleaning chamber 2001 in a variety of ways. For example, by properly designing the size and shape of the mop cleaning mechanism 2002 and the mop cleaning cavity 2001, the mop cleaning mechanism 2002 can be just clamped and embedded in the mop cleaning cavity 2001, so that the detachable assembly can be realized; for another example, the mop cleaning mechanism 2002 can be inserted into or pulled out of the mop cleaning cavity 2001 by means of a drawer connection, so as to realize detachable assembly; of course, the mop cleaning mechanism 2002 and the mop cleaning chamber 2001 can be detachably assembled by means of fastening, screwing and the like.

As one of the embodiments of this application, electronic mop belt cleaning device still includes the slop pail, mop wash chamber detachably install in the slop pail, the mop wash the intracavity still is equipped with the hole that leaks that is used for discharging sewage, the hole that leaks is sealed through open closed valve body. In this embodiment, the mop cleaning chamber 2001 is also detachably installed in the slop pail 2008, and when a user wants to clean the slop pail 2008, the user can take out the mop cleaning chamber 2001, thereby conveniently cleaning stubborn stains in the slop pail 2008.

As one embodiment of the application, the mop cleaning mechanism is a porous hollow structure, a cleaning part is grown on the mop cleaning mechanism along a direction back to the bottom wall of the mop cleaning cavity, and the cleaning part divides the corresponding hollow structure into a plurality of hollow areas. As one embodiment of the application, the cleaning elements are radially distributed on the mop cleaning mechanism in a spiral or linear radial manner, and the cleaning elements are arranged at intervals on the corresponding spiral or linear manner. In this embodiment, the mop cleaning mechanism 2002 is a porous hollow structure, so that dirt is not easily collected on the mop cleaning mechanism 2002 and is not easily deposited in the mop cleaning chamber 2001. The mop cleaning mechanism 2002 has cleaning members 2005 arranged at intervals, which can provide good cleaning and drying effects for the wiping head 3002.

As one embodiment of the application, the mop cleaning mechanism is arranged above the mop cleaning cavity, and a height difference exists between the mop cleaning mechanism and the bottom wall of the mop cleaning cavity. In this embodiment, there is a height difference between the mop cleaning mechanism 2002 and the bottom wall of the mop cleaning chamber 2001, so that when the user takes out the mop cleaning mechanism 2002, the structure of the mop cleaning chamber 2001 is simpler, which accordingly reduces the obstacles encountered by the dirt moving on the bottom wall of the mop cleaning chamber 2001, so that the dirt is more easily washed away by the flowing water, and also helps to prevent the dirt from depositing on the bottom wall of the mop cleaning chamber 2001, and the user can more conveniently clean the mop cleaning chamber 2001.

As one embodiment of the present application, the valve body is disposed below the electric mop cleaning apparatus, and the electric mop cleaning apparatus further includes: and the valve opening mechanism is connected with the valve body and is used for driving the valve body to act. As one embodiment of the present application, the valve body extends to be connected to the valve opening mechanism at least partially through a through hole formed in the slop pail, and the valve opening mechanism is at least partially exposed to the slop pail.

As an embodiment of the present application, the valve body extends to be connected to the valve opening mechanism at least partially through a through hole formed in the slop pail, and the valve opening mechanism is at least partially exposed to the slop pail. As one embodiment of the application, the inner side wall of the sewage bucket and the overflow ribs arranged on the inner side wall enclose an overflow cavity, overflow holes communicated with the outside are arranged in the overflow cavity area, and the height of the overflow ribs is lower than the through holes. Referring to fig. 3 and 8, in this embodiment, the inner sidewall of the slop pail 2008 and the overflow rib 2022 disposed thereon define an overflow cavity, an overflow hole communicated with the outside is disposed in the area of the overflow cavity, and the height of the overflow rib 2022 is lower than the through hole 2015. In this embodiment, when the amount of the sewage accumulated in the slop pail 2008 is excessive, the sewage can be shunted to the overflow chamber and discharged to the outside through the overflow hole, thereby preventing the mop cleaning chamber 2001 from floating due to overfilling of the slop pail 2008; because the through hole 2015 for the valve opening mechanism 2006 to pass through is arranged on the slop pail 2008, the height of the overflow rib should be lower than that of the through hole 2015, otherwise, sewage overflows from the through hole 2015, and the shoes, socks and clothes of the user are polluted.

As one embodiment of the application, the side wall of the sewage bucket is also provided with a drainage hole, and the drainage hole is blocked by an openable plug. In this embodiment, the sidewall of the slop pail 2008 is further provided with a drainage hole 2013, the drainage hole 2013 is plugged by the openable plug 2014, when the user needs to discharge the sewage of the slop pail 2008, only the plug 2014 needs to be opened, so that the trouble of dumping the sewage by the user is avoided.

As one embodiment of the present application, the valve body includes: the drain valve can pivot, a first return spring is arranged at the position corresponding to the pivot shaft, one end of the drain valve seals the water leakage hole, and the other end of the drain valve is provided with a propping part; the valve opening mechanism includes: the pedal can pivot, and a second return spring is arranged at the position corresponding to the pivot shaft; and a hooking part connected with the abutting part; the pedal stirs the abutting part through the hooking part under the action of external force so as to open the drain valve to discharge sewage in the mop cleaning cavity.

As one of the embodiments of the present application, the electric mop includes an electrically driven agitation system comprising: the mop cleaning mechanism comprises at least one driving motor, a cleaner connected with the corresponding driving motor and a wiping head attached to the cleaner and capable of sliding relative to the ground along with the cleaner, wherein the bottom of the electric mop is also provided with a positioning hole, and the mop cleaning mechanism is provided with a positioning bulge corresponding to the positioning hole.

Referring to fig. 3, 4 a-4 c, 5 a-5 b, in one embodiment of the present application, an electric mop cleaning apparatus 2000 is disclosed, the electric mop 3000 including an electrically powered agitation system comprising: at least one driving motor, a cleaner 3001 connected to the corresponding driving motor, and a wiping head 3002 attached to the cleaner 3001 and slidably moving with the cleaner 3001 with respect to the floor, the electric mop cleaning apparatus 2000 comprising: the mop cleaning cavity 2001 is provided, a mop cleaning mechanism 2002 with a porous hollow part is arranged in the mop cleaning cavity 2001, a cleaning part 2005 is arranged on the mop cleaning mechanism 2002 in a direction back to the bottom wall of the mop cleaning cavity 2001, and the moving wiping head 3002 is pressed against the cleaning part to scrape so as to remove dirt attached to the wiping head 3002. The electric mop cleaning apparatus 2000 disclosed in this embodiment can achieve the self-cleaning function of the electric mop 3000, and on one hand, can scrape off the dirt on the wiping head 3002 in the cleaning process of the electric mop 3000, and on the other hand, can scrape off the cleaning water on the wiping head 3002 in the drying process of the electric mop 3000, so that the wiping head 3002 can quickly reach the cleanliness and the wettability suitable for mopping the ground, and a user can conveniently take the mop at any time. In addition, the mop cleaning mechanism 2002 in this embodiment is perforated, so that the scraped dirt is not collected in the mop cleaning mechanism 2002, and the burden of cleaning the mop cleaning mechanism 2002 by the user is eliminated.

As one of the embodiments of this application, mop wiper mechanism is porous hollow out construction, hollow out construction includes at least one ring fretwork portion, ring fretwork portion includes endocentric inner ring and outer loop, cleaning element alternate distribute in between inner ring and the outer loop in order to with ring fretwork portion separates for a plurality of fretwork areas. As one embodiment of the present application, the cleaning components are radially or linearly radially inserted and distributed between the inner ring and the outer ring by taking a circle center of the hollow-out portion of the circular ring as a center, and the cleaning components located on adjacent spiral lines or adjacent straight lines form a staggered array. Referring to fig. 4b, in this embodiment, the mop cleaning mechanism 2002 includes two circular ring hollow-outs 2023, and the corresponding circular ring hollow-outs 2023 include concentric inner and outer rings, and the cleaning elements 2005 are interspersed between the inner and outer rings. The cleaning component 2005 is radially and alternately distributed between the inner ring and the outer ring with the center of the circular hollow portion 2023 as the center, and divides the circular hollow portion 2023 into a plurality of hollow areas 2021. In this embodiment, the annular hollow portion 2023 has an inner ring structure and an outer ring structure, and the cleaning component 2005 is inserted between the inner ring structure and the outer ring structure, so that the design is not only beautiful, but also the wiping head 3002 can be cleaned/wiped by the less cleaning components 2005, and simultaneously, the hollow area is separated by the cleaning component 2005 so as to allow dirt to pass through and fall down, thereby greatly improving the cleaning and wiping effects of the electric mop cleaning device. Referring to FIG. 13, in one embodiment of the present application, the cleaning elements on adjacent spirals or adjacent lines form a staggered array. In this embodiment, the cleaning members 2005 arranged in adjacent straight lines are staggered, so that the gap regions between the cleaning members 2005 arranged in the same straight line can be mutually compensated to sufficiently clean the wiping head 3002. As will be appreciated by those skilled in the art, in other embodiments of the present application, the cleaning elements 2005 may be spaced along the spirals, and the cleaning elements 2005 on adjacent spirals may also form a staggered array.

As one example of the present application, the height of the elongated cleaning member is 2mm to 30 mm. As one of the embodiments of the present application, the cleaning member comprises a cleaning rib and/or a scrub wheel and the scrub head comprises a cleaning pad, a scrub pad and/or a cleaning strip.

As one embodiment of the application, comb teeth formed by projections are further arranged on the cleaning component. In this embodiment, in order to enhance the cleaning effect of the cleaning member 2005 to remove entanglement of hairs, threads, and the like attached to the wiping head 3002, protrusions are further provided on the cleaning member 2005 to form comb teeth to deeply clean the wiping head 3002.

As one of the embodiments of this application, the mop washing intracavity still is provided with the hole that leaks that is used for discharging sewage, the hole that leaks is sealed through open closed valve body. Referring to fig. 3, in this embodiment, the scraped dirt can fall into the mop cleaning chamber 2001 after passing through the hollowed-out region 2021 and be discharged through the water leakage holes 2003 in the mop cleaning chamber 2001, thereby preventing the dirt from being deposited in the mop cleaning chamber 2001.

As one embodiment of the present application, the electric mop cleaning apparatus further includes: and the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage holes. In this embodiment, the sewage discharged from the mop washing chamber 2001 through the water leakage hole 2003 can be flowed into the slop pail 2008 to be stored therein to be uniformly discharged after the user has completely completed the floor mopping task.

As one embodiment of the present application, the valve body is disposed below the electric mop cleaning apparatus, and the electric mop cleaning apparatus further includes: and the valve opening mechanism is connected with the valve body and is used for driving the valve body to act. As an embodiment of the present application, the valve body at least partially extends to connect with the valve opening mechanism through a via hole opened on the slop pail, and the valve opening mechanism is at least partially exposed to the slop pail, wherein the valve body includes: the drain valve can pivot, a first return spring is arranged at the position corresponding to the pivot shaft, one end of the drain valve seals the water leakage hole, and the other end of the drain valve is provided with a propping part; the valve opening mechanism includes: the pedal can pivot, and a third return spring is arranged at the position corresponding to the pivot shaft; and a butting part connected with the butting part; the pedal jacks the abutting part through the abutting part under the action of external force so as to open the drain valve to drain sewage in the mop cleaning cavity. Regarding the scheme of the valve opening mechanism 2006 and the valve body 2004 cooperating with each other, reference may be made to the embodiments described above in connection with fig. 3, 5a and 5 b.

Referring to fig. 14, in one embodiment of the present application, an electric mop cleaning apparatus 4000 is disclosed, in which the electric mop cleaning apparatus 4000 includes a mop cleaning chamber 4001, and water leakage holes 4003 are provided in the mop cleaning chamber 4001, and the water leakage holes 4003 are sealed by a valve body 4004. The electric mop cleaning device 4000 is further provided with a valve opening mechanism 4006 for controlling the opening and closing of the valve body 4004. The valve opening mechanism 4006 can be controlled electronically or wirelessly to open and close the valve body 4004. For example, the valve opening mechanism 4006 includes an electromagnet and a plunger that is driven by the electromagnet to open the valve body 4004, thereby discharging the sewage in the mop cleaning chamber 4001. As can be understood by those skilled in the art, the present application discloses a plurality of mechanical structures in which the valve body and the valve opening mechanism work in cooperation with each other, and they can be matched with a suitable electronic or wireless control mode to realize the function of controlling the opening and closing of the valve body.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

So far, the technical solutions of the present disclosure have been described in connection with the foregoing embodiments, but it is easily understood by those skilled in the art that the scope of the present disclosure is not limited to only these specific embodiments. The technical solutions in the above embodiments can be split and combined, and equivalent changes or substitutions can be made on related technical features by those skilled in the art without departing from the technical principles of the present disclosure, and any changes, equivalents, improvements, and the like made within the technical concept and/or technical principles of the present disclosure will fall within the protection scope of the present disclosure.

Claims (10)

1. An electric mop cleaning device, the electric mop including an electrically powered agitation system, the agitation system comprising: at least one drive motor, a cleaner connected to the respective drive motor, and a mop head attached to the cleaner and slidably movable with the cleaner relative to a floor, the electric mop cleaning apparatus comprising:

the mop cleaning cavity is provided with a mop cleaning mechanism, the mop cleaning mechanism is of a hollow structure, the hollow structure comprises a framework and a hollow area, the hollow area is located in the framework and formed by a plurality of hollow holes, the hollow holes are fan-shaped or polygonal, and a moving wiping head abuts against and presses the mop cleaning mechanism to wipe so as to achieve cleaning of the electric mop.

2. The electric mop cleaning device according to claim 1, wherein the hollowed-out structure comprises at least one circular ring hollowed-out portion, the circular ring hollowed-out portion comprises an inner ring and an outer ring which are concentric, a cleaning component is arranged on the mop cleaning mechanism and is extended along a direction back to the bottom wall of the mop cleaning cavity, and the cleaning component is distributed between the inner ring and the outer ring in an inserting mode so as to divide the circular ring hollowed-out portion into a plurality of hollowed-out areas.

3. The electric mop cleaning device of claim 2, wherein the mop cleaning mechanism is provided with cleaning elements extending in a direction away from the bottom wall of the mop cleaning cavity, the cleaning elements are spirally or linearly radially interspersed between the inner ring and the outer ring around the center of the circular ring hollow-out portion, and the cleaning elements on adjacent spirals or adjacent lines form a staggered array.

4. The electric mop cleaning device of any one of claims 1-3, wherein the mop cleaning mechanism is disposed above the mop cleaning chamber and has a height difference with a bottom wall of the mop cleaning chamber.

5. The electric mop cleaning device according to claim 4, wherein a water leakage hole for discharging sewage is further provided in the mop cleaning chamber, and the water leakage hole is sealed by an openable and closable valve body.

6. The electric mop cleaning apparatus of claim 5, further comprising: and the sewage bucket is used for containing the mop cleaning cavity, and the cleaned sewage is discharged to the sewage bucket through the water leakage holes.

7. The electric mop cleaning device of claim 4, wherein a support is provided below the mop cleaning mechanism to support the mop cleaning mechanism above the mop cleaning chamber.

8. The electric mop cleaning apparatus of claim 3, wherein the height of the elongated cleaning member is 2mm to 30 mm.

9. The electric mop cleaning device of claim 3, wherein the cleaning member further comprises raised comb teeth.

10. An electric mop cleaning device according to claim 8 or 9, wherein the cleaning elements comprise cleaning ribs and/or scrubbing wheels and the scrubbing head comprises a cleaning pad, a scrubbing cloth and/or a cleaning strip.

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